Similarities between Power Architecture and Processor register
Power Architecture and Processor register have 13 things in common (in Unionpedia): AltiVec, Cell (microprocessor), CPU cache, Cray, IBM POWER instruction set architecture, Instruction set architecture, Load/store architecture, Motorola, SIMD, Status register, Vector processor, 32-bit, 64-bit computing.
AltiVec
AltiVec is a single-precision floating point and integer SIMD instruction set designed and owned by Apple, IBM, and Freescale Semiconductor (formerly Motorola's Semiconductor Products Sector) — the AIM alliance.
AltiVec and Power Architecture · AltiVec and Processor register ·
Cell (microprocessor)
Cell is a multi-core microprocessor microarchitecture that combines a general-purpose Power Architecture core of modest performance with streamlined coprocessing elements which greatly accelerate multimedia and vector processing applications, as well as many other forms of dedicated computation.
Cell (microprocessor) and Power Architecture · Cell (microprocessor) and Processor register ·
CPU cache
A CPU cache is a hardware cache used by the central processing unit (CPU) of a computer to reduce the average cost (time or energy) to access data from the main memory.
CPU cache and Power Architecture · CPU cache and Processor register ·
Cray
Cray Inc. is an American supercomputer manufacturer headquartered in Seattle, Washington.
Cray and Power Architecture · Cray and Processor register ·
IBM POWER instruction set architecture
The IBM POWER ISA is a reduced instruction set computer (RISC) instruction set architecture (ISA) developed by IBM.
IBM POWER instruction set architecture and Power Architecture · IBM POWER instruction set architecture and Processor register ·
Instruction set architecture
An instruction set architecture (ISA) is an abstract model of a computer.
Instruction set architecture and Power Architecture · Instruction set architecture and Processor register ·
Load/store architecture
In computer engineering, a load/store architecture is an instruction set architecture that divides instructions into two categories: memory access (load and store between memory and registers), and ALU operations (which only occur between registers).
Load/store architecture and Power Architecture · Load/store architecture and Processor register ·
Motorola
Motorola, Inc. was an American multinational telecommunications company founded on September 25, 1928, based in Schaumburg, Illinois.
Motorola and Power Architecture · Motorola and Processor register ·
SIMD
Single instruction, multiple data (SIMD) is a class of parallel computers in Flynn's taxonomy.
Power Architecture and SIMD · Processor register and SIMD ·
Status register
A status register, flag register, or condition code register (CCR) is a collection of status flag bits for a processor.
Power Architecture and Status register · Processor register and Status register ·
Vector processor
In computing, a vector processor or array processor is a central processing unit (CPU) that implements an instruction set containing instructions that operate on one-dimensional arrays of data called vectors, compared to scalar processors, whose instructions operate on single data items.
Power Architecture and Vector processor · Processor register and Vector processor ·
32-bit
32-bit microcomputers are computers in which 32-bit microprocessors are the norm.
32-bit and Power Architecture · 32-bit and Processor register ·
64-bit computing
In computer architecture, 64-bit computing is the use of processors that have datapath widths, integer size, and memory address widths of 64 bits (eight octets).
64-bit computing and Power Architecture · 64-bit computing and Processor register ·
The list above answers the following questions
- What Power Architecture and Processor register have in common
- What are the similarities between Power Architecture and Processor register
Power Architecture and Processor register Comparison
Power Architecture has 200 relations, while Processor register has 139. As they have in common 13, the Jaccard index is 3.83% = 13 / (200 + 139).
References
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